quic/conn_loss.go - net - Git at Google

 // Copyright 2023 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 //go:build go1.21

 package quic

 import "fmt"

 // handleAckOrLoss deals with the final fate of a packet we sent:
 // Either the peer acknowledges it, or we declare it lost.
 //
 // In order to handle packet loss, we must retain any information sent to the peer
 // until the peer has acknowledged it.
 //
 // When information is acknowledged, we can discard it.
 //
 // When information is lost, we mark it for retransmission.
 // See RFC 9000, Section 13.3 for a complete list of information which is retransmitted on loss.
 // https://www.rfc-editor.org/rfc/rfc9000#section-13.3
 func (c *Conn) handleAckOrLoss(space numberSpace, sent *sentPacket, fate packetFate) {
 	if fate == packetLost && c.logEnabled(QLogLevelPacket) {
 		c.logPacketLost(space, sent)
 	}

 	// The list of frames in a sent packet is marshaled into a buffer in the sentPacket
 	// by the packetWriter. Unmarshal that buffer here. This code must be kept in sync with
 	// packetWriter.append*.
 	//
 	// A sent packet meets its fate (acked or lost) only once, so it's okay to consume
 	// the sentPacket's buffer here.
 	for !sent.done() {
 		switch f := sent.next(); f {
 		default:
 			panic(fmt.Sprintf("BUG: unhandled acked/lost frame type %x", f))
 		case frameTypeAck:
 			// Unlike most information, loss of an ACK frame does not trigger
 			// retransmission. ACKs are sent in response to ack-eliciting packets,
 			// and always contain the latest information available.
 			//
 			// Acknowledgement of an ACK frame may allow us to discard information
 			// about older packets.
 			largest := packetNumber(sent.nextInt())
 			if fate == packetAcked {
 				c.acks[space].handleAck(largest)
 			}
 		case frameTypeCrypto:
 			start, end := sent.nextRange()
 			c.crypto[space].ackOrLoss(start, end, fate)
 		case frameTypeMaxData:
 			c.ackOrLossMaxData(sent.num, fate)
 		case frameTypeResetStream,
 			frameTypeStopSending,
 			frameTypeMaxStreamData,
 			frameTypeStreamDataBlocked:
 			id := streamID(sent.nextInt())
 			s := c.streamForID(id)
 			if s == nil {
 				continue
 			}
 			s.ackOrLoss(sent.num, f, fate)
 		case frameTypeStreamBase,
 			frameTypeStreamBase | streamFinBit:
 			id := streamID(sent.nextInt())
 			start, end := sent.nextRange()
 			s := c.streamForID(id)
 			if s == nil {
 				continue
 			}
 			fin := f&streamFinBit != 0
 			s.ackOrLossData(sent.num, start, end, fin, fate)
 		case frameTypeMaxStreamsBidi:
 			c.streams.remoteLimit[bidiStream].sendMax.ackLatestOrLoss(sent.num, fate)
 		case frameTypeMaxStreamsUni:
 			c.streams.remoteLimit[uniStream].sendMax.ackLatestOrLoss(sent.num, fate)
 		case frameTypeNewConnectionID:
 			seq := int64(sent.nextInt())
 			c.connIDState.ackOrLossNewConnectionID(sent.num, seq, fate)
 		case frameTypeRetireConnectionID:
 			seq := int64(sent.nextInt())
 			c.connIDState.ackOrLossRetireConnectionID(sent.num, seq, fate)
 		case frameTypeHandshakeDone:
 			c.handshakeConfirmed.ackOrLoss(sent.num, fate)
 		}
 	}
 }
	// Copyright 2023 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	//go:build go1.21

	package quic

	import "fmt"

	// handleAckOrLoss deals with the final fate of a packet we sent:
	// Either the peer acknowledges it, or we declare it lost.
	//
	// In order to handle packet loss, we must retain any information sent to the peer
	// until the peer has acknowledged it.
	//
	// When information is acknowledged, we can discard it.
	//
	// When information is lost, we mark it for retransmission.
	// See RFC 9000, Section 13.3 for a complete list of information which is retransmitted on loss.
	// https://www.rfc-editor.org/rfc/rfc9000#section-13.3
	func (c Conn) handleAckOrLoss(space numberSpace, sent sentPacket, fate packetFate) {
	if fate == packetLost && c.logEnabled(QLogLevelPacket) {
	c.logPacketLost(space, sent)
	}

	// The list of frames in a sent packet is marshaled into a buffer in the sentPacket
	// by the packetWriter. Unmarshal that buffer here. This code must be kept in sync with
	// packetWriter.append*.
	//
	// A sent packet meets its fate (acked or lost) only once, so it's okay to consume
	// the sentPacket's buffer here.
	for !sent.done() {
	switch f := sent.next(); f {
	default:
	panic(fmt.Sprintf("BUG: unhandled acked/lost frame type %x", f))
	case frameTypeAck:
	// Unlike most information, loss of an ACK frame does not trigger
	// retransmission. ACKs are sent in response to ack-eliciting packets,
	// and always contain the latest information available.
	//
	// Acknowledgement of an ACK frame may allow us to discard information
	// about older packets.
	largest := packetNumber(sent.nextInt())
	if fate == packetAcked {
	c.acks[space].handleAck(largest)
	}
	case frameTypeCrypto:
	start, end := sent.nextRange()
	c.crypto[space].ackOrLoss(start, end, fate)
	case frameTypeMaxData:
	c.ackOrLossMaxData(sent.num, fate)
	case frameTypeResetStream,
	frameTypeStopSending,
	frameTypeMaxStreamData,
	frameTypeStreamDataBlocked:
	id := streamID(sent.nextInt())
	s := c.streamForID(id)
	if s == nil {
	continue
	}
	s.ackOrLoss(sent.num, f, fate)
	case frameTypeStreamBase,
	frameTypeStreamBase \| streamFinBit:
	id := streamID(sent.nextInt())
	start, end := sent.nextRange()
	s := c.streamForID(id)
	if s == nil {
	continue
	}
	fin := f&streamFinBit != 0
	s.ackOrLossData(sent.num, start, end, fin, fate)
	case frameTypeMaxStreamsBidi:
	c.streams.remoteLimit[bidiStream].sendMax.ackLatestOrLoss(sent.num, fate)
	case frameTypeMaxStreamsUni:
	c.streams.remoteLimit[uniStream].sendMax.ackLatestOrLoss(sent.num, fate)
	case frameTypeNewConnectionID:
	seq := int64(sent.nextInt())
	c.connIDState.ackOrLossNewConnectionID(sent.num, seq, fate)
	case frameTypeRetireConnectionID:
	seq := int64(sent.nextInt())
	c.connIDState.ackOrLossRetireConnectionID(sent.num, seq, fate)
	case frameTypeHandshakeDone:
	c.handshakeConfirmed.ackOrLoss(sent.num, fate)
	}
	}
	}